Degradation of precipitation hardening in 7075 alloy subject to thermal exposure: A Cs-corrected STEM study

Thermal exposure can cause severe damages to aluminum alloys in service. The present paper, using advanced Cs-corrected scanning transmission electron microscopy (STEM), reports on a study on the degradation of precipitation hardening in peak-aged 7075 alloy subject to thermal exposure. During the t...

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Published inJournal of alloys and compounds Vol. 741; pp. 656 - 660
Main Authors Zheng, Jingxu Kent, Xu, Xuesong, Luo, Ruichun, Zeng, Xiaoqin, Chen, Bin
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.04.2018
Elsevier BV
Subjects
7075
Al alloy
Aluminum alloys
Aluminum base alloys
Copper
Degradation
Dispersions
Dispersoid
Exposure
Heat
Magnesium
Precipitates
Precipitation
Precipitation hardening
Scanning electron microscopy
Scanning transmission electron microscopy
Thermal exposure
Transmission electron microscopy
Zinc
Thermal exposure
Precipitation
Transmission electron microscopy
Al alloy
Dispersoid
7075
Online AccessGet full text
ISSN0925-8388
1873-4669
DOI10.1016/j.jallcom.2018.01.172

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Abstract Thermal exposure can cause severe damages to aluminum alloys in service. The present paper, using advanced Cs-corrected scanning transmission electron microscopy (STEM), reports on a study on the degradation of precipitation hardening in peak-aged 7075 alloy subject to thermal exposure. During the thermal exposure at 300°C, nano-scale fine precipitates in peak-aged 7075 dissolve and form coarse Mg(Zn, Cu)2 on the surface of Al18Mg3Cr2 dispersoid particles, which are several hundred nanometers in size, leading to the loss of precipitation strengthening. The interface between Mg(Zn, Cu)2 and Al18Mg3Cr2 is fully coherent and thus facilitates the heterogeneous nucleation of Mg(Zn, Cu)2. Therefore, the Cr content should be paid attention to for 7075 alloys that may undergo thermal exposure. [Display omitted] •The degradation mechanism of peak-aged 7075 during thermal exposures revealed.•The effect induced by dispersoid on precipitation hardenings discussed.•The interface between the precipitate/dispersoid interface is fully coherent.•Cr content should be considered when designing 7075 that may undergo thermal exposure.
AbstractList Thermal exposure can cause severe damages to aluminum alloys in service. The present paper, using advanced Cs-corrected scanning transmission electron microscopy (STEM), reports on a study on the degradation of precipitation hardening in peak-aged 7075 alloy subject to thermal exposure. During the thermal exposure at 300°C, nano-scale fine precipitates in peak-aged 7075 dissolve and form coarse Mg(Zn, Cu)2 on the surface of Al18Mg3Cr2 dispersoid particles, which are several hundred nanometers in size, leading to the loss of precipitation strengthening. The interface between Mg(Zn, Cu)2 and Al18Mg3Cr2 is fully coherent and thus facilitates the heterogeneous nucleation of Mg(Zn, Cu)2. Therefore, the Cr content should be paid attention to for 7075 alloys that may undergo thermal exposure. [Display omitted] •The degradation mechanism of peak-aged 7075 during thermal exposures revealed.•The effect induced by dispersoid on precipitation hardenings discussed.•The interface between the precipitate/dispersoid interface is fully coherent.•Cr content should be considered when designing 7075 that may undergo thermal exposure.
Thermal exposure can cause severe damages to aluminum alloys in service. The present paper, using advanced Cs-corrected scanning transmission electron microscopy (STEM), reports on a study on the degradation of precipitation hardening in peak-aged 7075 alloy subject to thermal exposure. During the thermal exposure at 300°C, nano-scale fine precipitates in peak-aged 7075 dissolve and form coarse Mg(Zn, Cu)2 on the surface of Al18Mg3Cr2 dispersoid particles, which are several hundred nanometers in size, leading to the loss of precipitation strengthening. The interface between Mg(Zn, Cu)2 and Al18Mg3Cr2 is fully coherent and thus facilitates the heterogeneous nucleation of Mg(Zn, Cu)2. Therefore, the Cr content should be paid attention to for 7075 alloys that may undergo thermal exposure.
Author Zeng, Xiaoqin
Xu, Xuesong
Chen, Bin
Luo, Ruichun
Zheng, Jingxu Kent
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Keywords Thermal exposure
Precipitation
Transmission electron microscopy
Al alloy
Dispersoid
7075
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Snippet Thermal exposure can cause severe damages to aluminum alloys in service. The present paper, using advanced Cs-corrected scanning transmission electron...
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SubjectTerms 7075
Al alloy
Aluminum alloys
Aluminum base alloys
Copper
Degradation
Dispersions
Dispersoid
Exposure
Heat
Magnesium
Precipitates
Precipitation
Precipitation hardening
Scanning electron microscopy
Scanning transmission electron microscopy
Thermal exposure
Transmission electron microscopy
Zinc
Title Degradation of precipitation hardening in 7075 alloy subject to thermal exposure: A Cs-corrected STEM study
URI https://dx.doi.org/10.1016/j.jallcom.2018.01.172
https://www.proquest.com/docview/2044646246
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